System and method for optimizing electronic document layouts

ABSTRACT

A system and method is provided that ranks and sorts websites, apps, email, or VR environment content in real-time to increase engagement, CTR, conversions, and revenue. A client applies attributes to sections of the digital content. A server system tracks end user inputs and generates optimized layouts for the digital content, such as a webpage. The document layout is ordered or reorganized before or after the document is delivered to the end user.

CROSS REFERENCE TO RELATED APPLICATIONS

This document claims the benefit of U.S. Prov. Pat. App. No. 62/335,050filed on May 11, 2016 and U.S. patent application Ser. No. 15/593,040filed May 11, 2017, the entireties of which are hereby incorporated byreference.

BACKGROUND OF THE INVENTION

Field of the Invention

This invention relates to the general field of network delivered digitalcontent, and more specifically toward a system and method that ranks andsorts mobile, web, and email content in real-time to increase customerengagement, click-through rate (CTR), and/or conversions. A clientapplies attributes to sections of the digital content. A server systemtracks end user inputs and generates optimized layouts for the digitalcontent, such as a webpage. The document layout is ordered orreorganized before or after the document is delivered to the end user.

Just as brick and mortar stores optimize their shelf space andfloor-sets to increase conversions and order size, the digital world canalso optimize the real estate of their websites, apps, emails, orvirtual reality (VR) environment to maximize engagement, CTR,conversions, and revenue. Today, mobile, web, and email optimization areprimarily done through data analysis, and AB or multivariate testing.The problem is that these optimizations are manual, non-scalable, andprone to errors.

Manual A/B testing or analytics is how web content optimization hasoccurred in the past. Analytics, A/B testing, and recommendationplatforms can aid developers in optimizing page layout; however, none ofthese automate the optimization of the user interface. Furthermore, noneof these enable real-time layout optimization based upon end-userbehavior characteristics.

Thus there has existed a need for a system and method that ranks andsorts mobile, web, and email content in real-time to increase customerengagement, CTR, and/or conversions. Additionally, there is a need for asystem that ranks and sorts content in virtual reality platforms, wherethe layout of a virtual environment can be optimized based on what auser views and interacts with.

SUMMARY OF THE INVENTION

The current disclosure provides just such a solution by having a systemthat automates the optimization of user interfaces. It restructures theuser interface to present the most relevant information. The system canpresent a unique layout for all users (default), specific segments(cluster) of users, or for a specific user, based on the amount of dataavailable.

Clients integrate their website with this system by adding tracking codeto their system. This code tracks the impressions, positions, pixels,clicks, orders, revenue, and even virtual touch or handling of the usersof the client's system (website, app, emails, or virtual realityenvironment). The system then uses randomized testing to rank thepositions of content sections and/or subsections, while also ranking andscoring the actual page content. Then, the system places the bestcontent in the best position, and the next best content in the next bestposition, and so on for the remaining content sections. Machine learningis used to determine the ideal weight of the various metrics used in thescore, to maximize the client's key performance indicator (KPI). The KPImay be engagement, conversions, revenue, application signups, emailsignups, or other performance indicators based on the client's specificneeds or specific application of the system.

A time decay function is also used to weigh more recent data moreheavily than older data. The current system then uses the content scoreto sort the content modules (sections) in order, from best performingposition to lowest performing position. Within these content sections,the system will also sort subsections of content in the same manner. Thesort happens in real-time, and content can be dynamically resized tooccupy a smaller or larger modules. The system can also remove content(i.e. sections or subsections) that are not performing well. This couldbe the result of the content performing below a required threshold (e.g.low conversion or CTR).

In addition, this technology can develop a unique sort for differentsegments (groups or cohorts) of users. These segments can be passed bythe client, or identified by the system itself. In other words, usersmay experience a unique version of the page, app, email, or VRenvironment for different geolocations, whether they are new or repeatusers, referring URL, or time of day, if it improves the KPI (e.g. CTR,conversion, revenue/impression) being optimized. The segments used canbe determined by artificial intelligence (AI) or machine learning (ML)algorithms, and can vary based on the client or the application of thetechnology.

When data permits, the content sort can also be user specific. In otherwords, when the system described herein has sufficient data to recommendan optimization to a specific user, it does so. When there isinsufficient data, it provides an optimization based upon other criteriaor data, such as aggregated data (user segment or default).

Finally, clients of the system select what content modules, or objects,of their page, app, email, or VR environment should be optimized.Furthermore, clients can choose to lock, or pin, content (objects) thatthey would like to remain static.

It is an object of the invention to provide a system and method foroptimizing the placement of content on a webpage, and whether or not toserve that content.

It is another object of the invention to provide a system and method foroptimizing webpage content based upon client selected criteria.

It is a further object of this invention to provide a system and methodfor sorting subsections within a section that is itself sorted on awebpage.

Particular embodiments of the current disclosure have a system foroptimizing the layout of an electronic document comprising a databaseand a processor executing programming logic for interfacing with remotesystems, the programming logic configured to provide a content sortservice, a track service, and a machine learning process; where thetrack service accepts end user request data, where the track servicestores the end user request data in the database, and where the trackservice provides the end user request data to the machine learningprocess; where the machine learning process uses the end user requestdata to generate and update models, where the models are stored in thedatabase; where the content sort service accepts optimization requestsfor an electronic document, where the electronic document comprises aplurality of sections, where the content sort service accesses thedatabase to obtain models for the optimization request, where thecontent sort service selects one or more models from the models obtainedfrom the database; where the content sort service applies the one ormore selected models to generate an optimized order for the plurality ofsections for the electronic document. The one or more models selected bythe content sort service is a randomized model, where the randomizedmodel is used to provide a partial or fully randomized optimized orderfor the plurality of sections for the electronic document. The contentsort service further provides a response to an end user, where theresponse comprises the optimized order for the plurality of sections forthe electronic document. Alternatively, the content sort service furtherprovides a response to a client server, where the response comprises theoptimized order for the plurality of sections for the electronicdocument. Each optimization request for an electronic document comprisesdata indicating that one or more of the plurality of sections of theelectronic document are pinned. The pinned one or more of the pluralityof sections of the electronic document are ignored by the content sortservice. Each optimization request for an electronic document comprisesa key performance indicator, where the content sort service uses the keyperformance indicator to select the one or more models obtained from thedatabase. The content sort service uses a progressively localizedcontent position randomization to generate an optimized order for theplurality of sections for the electronic document. The track serviceprovides the end user request data to the machine learning process viaone or more log files or via a distributed messaging system. At leastone of the plurality of sections of the electronic document comprises aplurality of subsections, where the content sort service further appliesthe one or more selected models to generate an optimized order for theplurality of subsections.

Another embodiment of the current disclosure is a method of optimizingthe layout of an electronic document, comprising the steps of: selectinga plurality of sections of the electronic document for optimization;selecting one or more criteria for optimizing the order of the pluralityof sections of the electronic document; sending a request to a serversystem to optimize the plurality of sections of the electronic documentusing the one or more criteria; and upon receiving an optimizationresponse from the server system, rearranging the sections of theelectronic document according to the optimization response received fromthe server system. The method further comprises the step of resizing thesections of the electronic document. The method further comprises thestep of removing one or more sections from the electronic document if itfails to meet predefined minimum criteria. At least one of the pluralityof sections of the electronic document comprises a plurality ofsubsections, where the method further comprises the step of sending arequest to a server system to optimize the plurality of subsections ofthe electronic document using the one or more criteria; and uponreceiving a subsection optimization response from the server system,rearranging the subsections according to the subsection optimizationresponse received from the server system. The method further comprisesthe step of adding one or more attributes to one or more of theplurality of sections of the electronic document.

Further embodiments of the current disclosure have a system foroptimizing the layout of an electronic document comprising a processorexecuting programming logic for interfacing with remote systems, theprogramming logic configured to: accept a request for an electronicdocument from an end user system, send an optimization request to aserver system for an optimized layout of the electronic document, wherethe electronic document comprises a plurality of sections; receive anoptimized layout response from the server system, rearrange the sectionsof the electronic document according to the optimized layout responsefrom the server system; and send an electronic document response to theend user system, where the sections of the electronic document arerearranged. The optimization request comprises a key performanceindicator. At least one of the sections of the electronic documentcomprises a plurality of subsections, where the programming logic isfurther configured to rearrange the subsections according to theoptimized layout response from the server system. The electronicdocument response sent to the end user system comprises computerreadable instructions, where the computer readable instructions compriseinstructions to send input data generated by the end user to the serversystem.

As used herein, a client is an entity that provides webpage, app, email,VR, or other electronic document content to end users and sets thecriteria on the server system that generates the optimized webpage, app,email, VR, or other electronic document content order or layout. An enduser, or simply user, is the entity that is requesting and viewing theelectronic document content of a client. The webpage layout is optimizedfor the end user. The electronic document, which includes withoutlimitation webpage, app, email, and VR content, has two or more sectionsand/or subsections that can be reorganized or optimized.

While particular programming languages, file structures, databases, andoperating systems may be discussed herein, other languages, filestructures, databases, and operating systems may be implemented withoutdeparting from the scope of the current disclosure.

Terms and phrases used in this document, and variations thereof, unlessotherwise expressly stated, should be construed as open ended as opposedto limiting. As examples of the foregoing: the term “including” shouldbe read as meaning “including, without limitation” or the like; the term“example” is used to provide exemplary instances of the item indiscussion, not an exhaustive or limiting list thereof; the terms “a” or“an” should be read as meaning “at least one,” “one or more” or thelike; and adjectives such as “conventional,” “traditional,” “normal,”“standard,” “known” and terms of similar meaning should not be construedas limiting the item described to a given time period or to an itemavailable as of a given time, but instead should be read to encompassconventional, traditional, normal, or standard technologies that may beavailable or known now or at any time in the future. Likewise, wherethis document refers to technologies that would be apparent or known toone of ordinary skill in the art, such technologies encompass thoseapparent or known to the skilled artisan now or at any time in thefuture.

The presence of broadening words and phrases such as “one or more,” “atleast,” “but not limited to” or other like phrases in some instancesshall not be read to mean that the narrower case is intended or requiredin instances where such broadening phrases may be absent. Additionally,the various embodiments set forth herein are described in terms ofexemplary block diagrams, flowcharts and other illustrations. As willbecome apparent to one of ordinary skill in the art after reading thisdocument, the illustrated embodiments and their various alternatives canbe implemented without confinement to the illustrated examples. Forexample, block diagrams and their accompanying description should not beconstrued as mandating a particular architecture or configuration.

There has thus been outlined, rather broadly, the more importantfeatures of the invention in order that the detailed description thereofmay be better understood, and in order that the present contribution tothe art may be better appreciated. There are additional features of theinvention that will be described hereinafter and which will form thesubject matter of the claims appended hereto. The features listed hereinand other features, aspects and advantages of the present invention willbecome better understood with reference to the following description andappended claims.

BRIEF DESCRIPTION OF THE FIGURES

The accompanying drawings, which are incorporated in and form a part ofthis specification, illustrate embodiments of the invention and togetherwith the description, serve to explain the principles of this invention.

FIG. 1 is diagram showing an original page layout according to selectedembodiments of the current disclosure.

FIG. 2 is a diagram showing an optimized page layout according toselected embodiments of the current disclosure.

FIG. 3 is a flowchart showing the interaction between the client webpageand the server system according to selected embodiments of the currentdisclosure.

FIG. 4 is a flowchart showing a process for providing an optimizedwebpage layout using a client-side integration according to selectedembodiments of the current disclosure.

FIG. 5 is a flowchart showing an alternative process for providing anoptimized webpage layout according to selected embodiments of thecurrent disclosure.

FIG. 6 is a flowchart showing another alternative process for providingan optimized webpage layout according to selected embodiments of thecurrent disclosure.

FIG. 7 is a flowchart showing a process executed on a server system forhandling optimization requests from remote clients.

FIG. 8 is diagram showing the interactions between the client websiteand the server system according to selected embodiments of the currentdisclosure.

FIG. 9 is a flowchart showing a process for providing an optimizedwebpage layout using server-side processes according to selectedembodiments of the current disclosure.

DETAILED DESCRIPTION OF THE INVENTION

Many aspects of the invention can be better understood with thereferences made to the drawings below. The components in the drawingsare not necessarily drawn to scale. Instead, emphasis is placed uponclearly illustrating the components of the present invention. Moreover,like reference numerals designate corresponding parts through theseveral views in the drawings.

FIG. 1 is diagram showing an original page layout according to selectedembodiments of the current disclosure. The page includes a header and afooter, with four sections there between labeled A, B, C, and D. Eachsection may have 1 or more subsections therein. For example, section Ahas subsections 1, 2, 3, 4, and 5; section B has just one subsection,section C has subsections 1, 2, 3, 4, and 5, and section D hassubsections 1, 2, and 3. Each section may have a different layout, suchthat the subsections are arranged differently compared to othersections.

FIG. 2 is a diagram showing an optimized page layout according toselected embodiments of the current disclosure. As with the originalpage layout, the optimized page layout includes a header at the top anda footer at the bottom. However, the placement of the sections has beenmodified to optimize the layout. While section A remains at the top ofthe page, it is now followed by section C. Section D follows section C,with the last Section B placed at the bottom.

Furthermore, the subsections within each section have been optimized aswell. For example, section A previously had a larger subsection 1, withsubsections 2 through 5 beneath it. Now, however, section A has a largersubsection 4, with subsections 1, 2, 5, and 3 beneath it. In fact, eachsection, subsection, or both may be resized to fit within the availablecontent area. As shown in FIGS. 1, and 2, subsections 1 and 2 areresized to fit the allocated space.

FIG. 3 is a flowchart showing the interaction between the client webpageand the server system according to selected embodiments of the currentdisclosure. The client webpage 10 sends an optimization request 11 to aserver system 12. The server system 12 processes that request, andreturns an optimization response 13 to the client webpage to act upon.The client webpage uses the optimization response to optimize thewebpage layout.

FIG. 4 is a flowchart showing a process for providing an optimizedwebpage layout using a client-side integration according to selectedembodiments of the current disclosure. Attributes are added 41 by theclient to the client's webpage on the client's server 71. Theseattributes apply to particular sections or subsections of a webpage thatthe client wants optimized by the server system 12. Additionally, theclient adds JavaScript code 42, or alternatively, a reference todownload a JavaScript file that includes the JavaScript code. TheJavaScript code includes computer readable instructions for interactingwith the server system (such as tracking user behavior) and optimizingthe content of the webpage. An end user 72 (or the end user's system orbrowser) then loads the client's webpage 43.

After loading the page, including the instructions contained in theJavaScript code or file, the instructions are executed and a request ismade 44 to the server system 12 to obtain an optimized layout or orderfor the webpage downloaded by the end user 72. The server system 12generates such an optimized order or layout, and returns a response withthe optimized order 45 back to the end user 72. The instructionscontained in the JavaScript code then optimize the webpage order orlayout based upon the data received from the server system 12. Thesections and subsections of the webpage are reorganized and moved aroundto optimize the content based upon the attributes set by the client. Enduser inputs, including without limitation impressions, clicks, andorders, are sent 46 to the server system 12. This input data is used togenerate future optimized content for that particular end user, as wellas other end users.

FIG. 5 is a flowchart showing a process for providing an optimizedwebpage layout according to selected embodiments of the currentdisclosure. An end user makes a request to view a particular webpage,and that webpage request 20 is processed by a client server. The clientserver sends an optimization request 21 to the server system, whichprocesses and generates optimization responses, discussed in more detailbelow. If the client server does not receive a response 22, or theresponse 22 is invalid, the client server sends default content 23 tothe end user. If, on the other hand, the client server receives a validresponse 22, it generates an optimized layout 24 using the response fromthe server system. For example, the client server will use the data inthe response to organize a webpage from its original format, such as theone shown in FIG. 1, to produce the layout in an optimized format, suchas the one shown in FIG. 2. The optimized content is then sent 25 to theend user.

FIG. 6 is a flowchart showing an alternative process for providing anoptimized webpage layout according to selected embodiments of thecurrent disclosure. As in FIG. 5, an end user makes a request to view aparticular webpage, and that webpage request 20 is processed by a clientserver. However, in this figure, the client server sends the pagecontent 26 to the end user, which includes a reference to one or morescripts used to access and interact with the server system. The enduser, or more specifically, the browser of the end user, loads theoptimizer scripts 27 and then sends an optimization request 21 to theserver system. If no response 22 is received from the server system, oran invalid response 22 is received from the server system, the pagecontent originally received by the end user is left unchanged 28. If, onthe other hand, a valid response 22 is received from the server system,the content received from the client server is reorganized 29 by theoptimizer scripts to produce an optimized layout for the end user.

FIG. 7 is a flowchart showing a process executed on a server system forhandling optimization requests from remote clients. The server systemreceives an optimization request 30, and then determines whether therequest is authentic 31. In other words, it determines if the request ismade from a webpage with a valid account that has been configuredproperly. If the server system determines that the request is notauthentic or not valid 31, then the server system sends an errorresponse 32. If, on the other hand, the server system determines thatthe request is authentic and valid 31, then the server system proceedsin generating an optimized sort order for an optimized layout 34. Itthen sends the optimized sort order response 35 back to the requestor.

FIG. 8 is diagram showing the interactions between the client websiteand the server system according to selected embodiments of the currentdisclosure. The client website 10 interacts with the server system 12,whether through the client server or the end user's machine, through atleast two services: a content sort service 15, and a track service 16.The content sort service 52 is a runtime component that returns theoptimized sort order of the sections and/or subsections of a requestedwebpage. The track service 16 is a web service that tracks specificevents, such as impressions and clicks. It writes events to a log file17 as well as to the database 14. The log files may be written to inJSON format, and the data stored in a NoSQL database. The database 14stores tracking information and is used by the content sort service 15to provide optimized orders of sections and/or subsections of webpages.A machine learning (ML) process 18 generates aggregate data based on thetracked events as well as generates models based on online learningalgorithms, discussed in more detail below. The generated models arestored into the database 14.

The content sort process begins when a client webpage 10 sends a requestto the content sort service 15 of the server system 12 for an optimizedlayout. The content sort service 15 accesses the database 14 todetermine whether the webpage is configured correctly, including withoutlimitation whether the client webpage is authorized to access thisservice and if so, what KPI have been set for this particular webpageor, alternatively, whether there is sufficient data to automaticallydetermine which KPI(s) to use based upon the different weights assignedto each KPI by the client. Subsequently, the content sort service 15accesses the database 14 to find all applicable models for thisparticular request given the KPI(s) that are to be used. Models describethe predicted performance of content at different sort positions, aswell as the relative strength of different positions within the webpage.The content sort service 15 generates scores for each of these modelsand uses the scores to determine which models to use. For example, eachapplicable model is given a score relative to its perceived ability togenerate the optimal layout for a particular webpage for the particularuser given the KPI(s) that are set for that particular webpage. Themodel with the best score is used to determine the sort order for thesections and/or subsections of this webpage.

Embodiments of the current disclosure also provide for the content sortprocess to designate sections or subsections for removal. If aparticular model determines that a certain section or subsection doesnot meet or exceed a predefined minimum score or criteria, that sectionor subsection is removed from the layout. The removed content may bereplaced with other content, or is simply not displayed in theelectronic document.

For each request to the content sort service 15, the request will berandomly assigned to return either a “learning” response or an“optimized” response. For requests that are assigned to return anoptimized response, the optimized sort order data representing theoptimized order of the sections and/or subsections is returned to thewebpage. For requests that are assigned to return a learning response,the optimized sort order data is at least partially randomized to allowthe machine learning process to more efficiently test and predict anoptimal content sort order. The randomization process for learningrequests uses a progressively localized content position randomizationwhereby new content is randomly ordered across a wide range ofpositions, and as impression volumes increase, the content is randomlyordered across a progressively narrower range of positions around thecalculated optimal position. This is designed in a way so as to minimizethe learning costs for the machine learning algorithm. The resultingrandomized sort order data representing the order of sections and/orsubsections is returned to the webpage.

The track service 16 takes end user request or input data, such asimpressions and clicks, and saves it to the database 14 as well as tolog file(s) 17.

The machine learning process 18 is run continuously, at set incrementsof time, or at variable increments of time. The machine learning process18 looks at log files 17 to process new events (end user request data)as they come in or shortly thereafter. Instead of reading log files, themachine learning process 18 can access the end user request data eventsusing a distributed messaging system/service 19, such as Apache Kafka.In either instances, the machine learning process 18 aggregates databased on event type, such as impressions, clicks, conversion, revenue,and a/b test. Models are generated and regenerated using online learningalgorithms, discussed in more detail below. The machine learning process18 may also evaluate multiple algorithms to determine which model ismost likely to provide the best optimized layout. Furthermore, multiplemodels may be combined together using Ensemble Learning methodologies,such as bucket of models, to provide more accurate models. The modelsgenerated by the machine learning process 18 are saved to the database14 for use by the content sort service 15.

Machine learning algorithms, such as sequential learning, are used tocreate models for predicting and generating an optimized order ofsections and/or subsections of the webpage. The content sort serviceuses these models to generate the optimized order data in response torequests for an optimized webpage layout.

In sequential learning, the algorithm attempts to minimize the errorbetween a predicted optimized layout and an actual optimized layout. Themachine learning process receives input data, such as from the log fileor distributed messaging system. It uses this input to make a predictionof the optimized layout, or in other words, creates a model thatgenerates an optimized layout. The optimized layout is displayed to anend user. The end user interacts with the layout, and generatesadditional end user request data, which is then received by the machinelearning process. The machine learning process evaluates the error inits optimized layout, and updates its model to provide an improved modelto generate optimized layouts.

By way of example, the machine learning process receives input data froma webpage with three sections: A, B, and C. It generates a model andsaves that model to the database. An end user visits the webpage, andthe webpage requests an optimized layout. The content sort service islooking to optimize click through by the user, that is, the webpageshould be optimized such that the user clicks on at least one of thesections to travel to another page. Using the model generated by themachine learning process, the content sort service determines that theoptimal layout is section B followed by section C, which is thenfollowed by section A. This order data is delivered to the webpage,which is reordered and displayed to the end user. An optimal page layoutwould have the user clicking on the first section, that is, section B.However, the end user does not click on section B or section C, butrather clicks on the last section A. Another end user that is displayedthis same layout does not click on any of the sections. These events aresent to the track service, which distributes the data to the machinelearning process through log files or a distributed messagingsystem/service. The machine learning process evaluates the event dataand determines that the optimized layout that should have been sent tothe end users was section A followed by section B, which should havebeen followed by section C. The machine learning process updates itsmodel accordingly, and saves it to the database.

The client selects which layouts it would like optimized, and thecriteria or KPI used to optimize those layouts. Instead of selecting aspecific KPI, the client may set an order of KPI to be used, or evenapply a preference or weight to each KPI. The content sort service willthen use the preferences or weights of each KPI to determine which modelto use to provide the optimized order to generate the optimized layoutof the web page.

In addition to selecting which sections should be optimized, users mayalso “pin” or select certain sections that should remain static orstationary relative to other sections. This can be helpful when a clientwishes a particular section to be first, last, or follow or precedeanother section.

When a section is pinned, this section can be completely ignored. Theoptimization request leaves out the section in its request to thecontent sort service, and the content sort service returns an optimizedsort order for the sections without regard to the pinned section. Forexample, a header section that is always displayed first, or a footersection that is always displayed last, is considered “pinned” and can beignored by the system. Alternatively, the pinned section may be includedin the request to the content sort service, but with a flag or anattribute that signifies the particular section has been pinned, and howit has been pinned (for example, first, last, or relative to anothersection). This may be relevant data to the content sort service todetermine the model and/or may be used as input to the model todetermine the optimized sort order. For example, when a particularsection is pinned first, that may modify the optimal order generated bythe models for a particular end user.

FIG. 9 is a flowchart showing a process for providing an optimizedwebpage layout using server-side processes according to selectedembodiments of the current disclosure. The client adds attributes 41 tothe sections and subsections of the electronic document (e.g., website)residing on the client's server 71 that the client wants optimized. Theclient also adds a JavaScript code or file 42 to their website orelectronic document distribution system. This file is used to track userbehavior (e.g. clicks, impressions, conversions, etc.). Additionally,the client installs a server-side script or code 49 on the client'sserver(s) that is responsible for the optimization of the electronicdocument. The client's website and server are then ready to acceptrequests. A user requests the client's page. The client's server makes arequest to the content sort service of the server system to get theoptimized order for the electronic document 44. The content sort serviceof the server system generates (as discussed above) and then returns therequested optimized order data 45, and the client's server 71 (throughthe instructions provided for in the server-side script or code on theclient's server(s)) compares the optimized order with the currentelectronic document and moves the necessary elements. The client server71 renders the optimized electronic document with the newly orderedelements and provides the electronic document to the end user 48. Inputsgenerated by the user while interacting with the electronic document(e.g., impressions, clicks, orders, etc.) are sent 46 to the trackservice of the server system 12 (per the instructions provided for inthe JavaScript file) such that the server system may calculate optimizedsorts and ordering for subsequent requested electronic documents.

While various embodiments of the present invention have been describedabove, it should be understood that they have been presented by way ofexample only, and not of limitation. Likewise, the various diagrams maydepict an example architectural or other configuration for theinvention, which is provided to aid in understanding the features andfunctionality that can be included in the invention. The invention isnot restricted to the illustrated example architectures orconfigurations, but the desired features can be implemented using avariety of alternative architectures and configurations.

Indeed, it will be apparent to one of skill in the art how alternativefunctional configurations can be implemented to implement the desiredfeatures of the present invention. Additionally, with regard to flowdiagrams, operational descriptions and method claims, the order in whichthe steps are presented herein shall not mandate that variousembodiments be implemented to perform the recited functionality in thesame order unless the context dictates otherwise.

Although the invention is described above in terms of various exemplaryembodiments and implementations, it should be understood that thevarious features, aspects and functionality described in one or more ofthe individual embodiments are not limited in their applicability to theparticular embodiment with which they are described, but instead can beapplied, alone or in various combinations, to one or more of the otherembodiments of the invention, whether or not such embodiments aredescribed and whether or not such features are presented as being a partof a described embodiment. Thus, the breadth and scope of the presentinvention should not be limited by any of the above-described exemplaryembodiments.

That which is claimed:
 1. A system for optimizing the layout of anelectronic document comprising a database and a processor executingprogramming logic for interfacing with remote systems, the programminglogic configured to provide a content sort service; where the contentsort service accepts an optimization request for an electronic document,where the electronic document comprises a plurality of sections, wherethe content sort service accesses the database to select one or moremodels for the optimization request, where the one or more selectedmodels use a progressively narrowed range of content positionrandomization to generate an optimized order for the plurality ofsections for the electronic document, where the content sort serviceapplies the one or more selected models to generate an optimized orderfor the plurality of sections for the electronic document.
 2. The systemof claim 1, wherein the content sort service further provides a responseto an end user, where the response comprises the optimized order for theplurality of sections for the electronic document.
 3. The system ofclaim 1, wherein the content sort service further provides a response toa client server, where the response comprises the optimized order forthe plurality of sections for the electronic document.
 4. The system ofclaim 1, wherein the optimization request for an electronic documentcomprises data indicating that one or more of the plurality of sectionsof the electronic document are pinned.
 5. The system of claim 4, whereinthe pinned sections of the electronic document are ignored by thecontent sort service.
 6. The system of claim 1, wherein the optimizationrequest for an electronic document comprises a key performanceindicator, where the content sort service uses the key performanceindicator to select the one or more models obtained from the database.7. The system of claim 1, wherein the programming logic is furtherconfigured to provide a track service, where the track service storesend user request data in the database.
 8. The system of claim 1, whereinthe programming logic is further configured to provide a machinelearning process, where the machine learning processes uses end userrequest data to generate and update the models.
 9. The system of claim1, wherein at least one of the plurality of sections of the electronicdocument comprises a plurality of subsections, where the content sortservice further applies the one or more selected models to generate anoptimized order for the plurality of subsections.
 10. A method ofoptimizing the layout of an electronic document comprising the steps of:receiving an optimization request for an electronic document, where theelectronic document comprises a plurality of sections; accessing adatabase to select one or more models for the optimization request,where the one or more selected models use a progressively narrowed rangeof content position randomization to generate an optimized order for theplurality of sections for the electronic document, applying the one ormore selected models to generate an optimized order for the plurality ofsections for the electronic document.
 11. The method of claim 10,further comprising the step of resizing the sections of the electronicdocument based on the one or more selected models.
 12. The method ofclaim 10, further comprising the step of removing one or more sectionsfrom the electronic document if the section fails to meet predefinedminimum criteria.
 13. The method of claim 10, wherein at least one ofthe plurality of sections of the electronic document comprises aplurality of subsections, where the method further comprises the step ofapplying the one or more selected models to generate an optimized orderfor the plurality of subsections.
 14. The method of claim 11, furthercomprising the step of adding one or more attributes to one or more ofthe plurality of sections of the electronic document.
 15. The method ofclaim 11, wherein the optimization request comprises a key performanceindicator.
 16. A system for optimizing the layout of an electronicdocument comprising a processor executing programming logic, theprogramming logic configured to provide a content sort service and amachine learning process; where the machine learning process uses enduser request data to generate and update optimization models; where thecontent sort service accepts an optimization request for the electronicdocument, where the electronic document comprises a plurality ofsections, where the content sort service selects one or moreoptimization models for the optimization request, where the optimizationmodels use a progressively narrowed range of content positionrandomization to generate an optimized order for the plurality ofsections for the electronic document, where the content sort serviceapplies the optimization models to generate an optimized order for theplurality of sections for the electronic document.
 17. The system ofclaim 16, wherein the content sort service further provides a responseto an end user, where the response comprises the optimized order for theplurality of sections for the electronic document.
 18. The system ofclaim 16, wherein the content sort service further provides a responseto a client server, where the response comprises the optimized order forthe plurality of sections for the electronic document.
 19. The system ofclaim 16, wherein the optimization request for an electronic documentcomprises a key performance indicator, where the content sort serviceuses the key performance indicator to select the one or more modelsobtained from the database.
 20. The system of claim 16, wherein at leastone of the plurality of sections comprises a plurality of subsections,where the content sort service further applies the one or more selectedmodels to generate an optimized order for the plurality of subsections.